Coordinating Memory Operations Using Memory-Device-Generated Reference Signals

1. A memory controller comprising: a controller data interface to transmit write data to a memory device having a memory core; and a clock-alignment circuit to generate a clock signal responsive to a timing reference from the memory device; the controller data interface coupled to the clock-alignment circuit, the controller data interface to transmit at least one of a memory-device command and the write data to the memory device timed to the clock signal, the memory device to store the write data in the memory core; the memory controller for use with the memory device and at least one additional memory device, each of the memory devices transmitting an associated timing reference to the memory controller for the memory controller to time transmission to the associated memory device, wherein the memory controller has a controller physical interface for each of the memory devices.

2. The memory controller of claim 1 , further comprising a clock-alignment circuit for each of the controller physical interfaces, the clock-alignment circuit to adjust each of a transmit phase and a receive phase associated with at least one controller operation for the associated memory device.

3. The memory controller of claim 2 , the clock-alignment circuit to align the at least one controller operation to a reference signal at the associated memory device.

4. The memory controller of claim 2 , wherein the clock-alignment circuit for each of the controller physical interfaces is to coordinate the at least one controller operation according to a unique frequency for each of the memory devices.

5. The memory controller of claim 1 , wherein the memory core includes dynamic, random-access memory.

6. A method of coordinating a memory write operation communicating write data to a memory core on a memory device, the memory core including memory cells to store the write data, the method comprising: receiving a timing reference from the memory device; extracting timing information from the timing reference; and coordinating the memory write operation communicating the write data to the memory device based on the timing information extracted from the timing reference.

7. The method of claim 6 , further comprising: receiving a second timing reference from a second memory device; extracting second timing information from the second timing reference; and coordinating a second memory operation communicating second data to the second memory device based on the second timing information extracted from the second timing reference.

8. The method of claim 7 , wherein the second memory operation is a second write operation to write the second data to the second memory device.

9. The method of claim 6 , wherein coordinating the memory operation comprises receiving that the data timed to a clock signal, retiming the data responsive to the timing information, and transmitting the retimed data to the memory device.

10. A system comprising: a memory-controller physical interface having: a first clock-management circuit to receive a first shared reference signal of a first frequency from a first memory device; and a first domain-crossing circuit coupled to the first clock-management circuit, the first domain-crossing circuit to retime first data signals from a controller time domain to a first memory time domain based on the first shared reference signal and transmit the retimed first data signals to the first memory device.

11. The system of claim 10 , the memory-controller physical interface further comprising: a second clock-management circuit to receive a second shared reference signal of a second frequency from a second memory device; and a second domain-crossing circuit coupled to the second clock-management circuit, the second domain-crossing circuit to retime second data signals from the controller time domain to a second memory time domain based on the second shared reference signal and transmit the retimed second data signals to the second memory device.

12. The system of claim 10 , further comprising controller logic coupled to the memory-controller physical interface, the controller logic to schedule transmission of the retimed first data signals to the first memory device and the retimed second data signals to the second memory device.

13. The system of claim 10 , further comprising the first memory device.

14. The system of claim 13 , the first memory device including a resonant physical structure to generate the first shared reference signal.

15. The system of claim 13 , further comprising a memory core to store first data expressed by the first data signals.

16. The system of claim 15 , wherein the first memory device includes the memory core.

17. The system of claim 16 , wherein the first memory device comprises an integrated circuit integrating the memory core.